Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Defects in the APC gene are inarguably linked to the progression of colon cancers that arise both sporadically and through the transmission of germline mutations. Genetic evidence from humans and mouse models suggest that APC is a classic tumor suppressor in that both alleles likely require inactivation for tumor growth to ensue. Nearly all of the mutations, germline and somatic, result in premature termination of the single polypeptide chain, normally consisting of 2843 amino acids. Several definable motifs have now been mapped to the linear amino acid sequence of the APC polypeptide. These include an oligomerization domain, armadillo repeats, binding sites for beta-catenin, the human discs large protein, microtubules, and other proteins of unknown function. Inactivation of APC in cancer is likely due to loss of function(s) normally associated with the deleted protein structure.
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PMID:The adenomatous polyposis coli (APC) tumor suppressor. 919 22

A protein first identified by its association with cadherin cell adhesion molecules, beta-catenin, has been implicated in carcinogenesis. In a number of different types of cancer, signalling through beta-catenin is upregulated either by direct mutation of beta-catenin or loss of negative regulation by the APC tumor suppressor protein.
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PMID:Carcinogenesis: a balance between beta-catenin and APC. 921 Mar 68

Much progress has been made in identifying genes mutated during the development of colorectal carcinoma. Mutation of the APC gene in particular appears to be fundamental for colorectal tumour initiation. In contrast, loss of expression of E-cadherin appears to be a late event, which may be important in the development of invasion. Recent clarification of the function of APC, however, has shown that it exists in equilibrium with beta-catenin and E-cadherin. This review discusses the function of these molecules, their interactions, and how APC mutations may alter the equilibrium with beta-catenin and E-cadherin. It is argued that these changes cause aberrant architectural development of tissue, which results in loss of growth control. It is this escape from growth control, rather than acquisition of cell-autonomous growth, which results in the initial development of adenomas. The role of the E-cadherin-catenin unit in colorectal tumour invasion is discussed and the evidence is reviewed for the involvement of APC and E-cadherin in tumours arising from non-intestinal epithelia.
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PMID:The interactions of APC, E-cadherin and beta-catenin in tumour development and progression. 927 21

In a 4-cell stage C. elegans embryo, signaling by the P2 blastomere induces anterior-posterior polarity in the adjacent EMS blastomere, leading to endoderm formation. We have taken genetic and reverse genetic approaches toward understanding the molecular basis for this induction. These studies have identified a set of genes with sequence similarity to genes that have been shown to be, or are implicated in, Wnt/Wingless signaling pathways in other systems. The C. elegans genes described here are related to wnt/wingless, porcupine, frizzled, beta-catenin/armadillo, and the human adenomatous polyposis coli gene, APC. We present evidence that there may be partially redundant inputs into endoderm specification and that a subset of these genes appear also to function in determining cytoskeletal polarity in certain early blastomeres.
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PMID:Wnt signaling and an APC-related gene specify endoderm in early C. elegans embryos. 928 37

beta-catenin has functions as both an adhesion and a signaling molecule. Disruption of these functions through mutations of the beta-catenin gene (CTNNB1) may be important in the development of colorectal tumors. We examined the entire coding sequence of beta-catenin by reverse transcriptase-PCR (RT-PCR) and direct sequencing of 23 human colorectal cancer cell lines from 21 patients. In two cell lines, there was apparent instability of the beta-catenin mRNA. Five different mutations (26%) were found in the remaining 21cell lines (from 19 patients). A three-base deletion (codon 45) was identified in the cell line HCT 116, whereas cell lines SW 48, HCA 46, CACO 2, and Colo 201 each contained single-base missense mutations (codons 33, 183, 245, and 287, respectively). All 23 cell lines had full-length beta-catenin protein that was detectable by Western blotting and that coprecipitated with E-cadherin. In three of the cell lines with CTNNB1 mutations, complexes of beta-catenin with alpha-catenin and APC were detectable. In SW48 and HCA 46, however, we did not detect complexes of beta-catenin protein with alpha-catenin and APC, respectively. These results show that selection of CTNNB1 mutations occurs in up to 26% of colorectal cancers from which cell lines are derived. In these cases, mutation selection is probably for altered beta-catenin function, which may significantly alter intracellular signaling and intercellular adhesion and may serve as a complement to APC mutations in the early stages of tumorigenesis.
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PMID:Beta-catenin mutations in cell lines established from human colorectal cancers. 929 10

The APC gene is mutated in the majority of colorectal tumors. The product of this gene is a 300 kDa protein associated with beta-catenin and the human homolog of the Drosophila tumor suppressor DLG. The study of the function of APC provides important insights into the mechanisms of the development of colorectal tumor.
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PMID:[APC, beta-catenin, DLG]. 930 37

beta-catenin interacts with a number of proteins in different important biological processes, including cell adhesion through cadherins, actin organization through fascin, body axis determination through Wnt signaling, tumor suppression through APC, and transcriptional activation through LEF-1. To examine its function in chicken embryogenesis, we isolated the chicken homolog of beta-catenin from a chicken embryo cDNA library. The sequence is highly conserved at the amino acid level between chicken, mouse (99%), human (99%) and Xenopus (97%). In-situ hybridization and immunostaining showed that in the developing limb, it is specifically expressed in the apical ectodermal ridge, suggesting a role in epithelial-mesenchymal interactions.
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PMID:Isolation and characterization of chicken beta-catenin. 932 59

The mutation cluster region in the APC gene defines a region of approximately 660 bp, in which the vast majority of its somatic mutations are found. These mutations disrupt the polypeptide chain, typically eliminating five of the seven repeated sequences of 20 amino acids (aa) each in the central region of the APC protein. To examine the relationship between loss of this structure and loss of function, we constructed APC deletion mutants that progressively truncated the protein across the mutation cluster region. The mutants were tested for their association with beta-catenin and their ability to down-regulate it in SW480 cells. The binding of beta-catenin to APC fragments required the inclusion of only a single 20-aa repeat sequence, whereas down-regulation required the presence of at least three of these repeat sequences, and those including the second repeat exhibited the highest activity. The mutation of three conserved serine residues in the second repeat greatly reduced the activity of an otherwise highly active APC fragment. Thus, the repeated 20-aa sequence is directly implicated in beta-catenin turnover. The elimination of at least five of these seven repeats due to somatic mutations suggests that loss of beta-catenin regulation by APC is selected for during tumor progression.
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PMID:Loss of beta-catenin regulation by the APC tumor suppressor protein correlates with loss of structure due to common somatic mutations of the gene. 937 78

Factors of the TCF/LEF HMG domain family (TCFs) exist in vertebrates, Drosophila melanogaster and Caenorhabditis elegans. It has very recently become evident that TCFs interact with the vertebrate WNT effector beta-catenin to mediate axis formation in Xenopus. Likewise, Armadillo (the Drosophila ortholog of beta-catenin) is genetically upstream of a Drosophila TCF in the Wingless pathway. Upon Wingless/Wnt signaling, Armadillo/beta-catenin associate with nuclear TCFs and contribute a trans-activation domain to the resulting bipartite transcription factor. The cytoplasmic tumor-suppressor protein APC binds to beta-catenin causing its destruction. In APC-deficient colon carcinoma cells, beta-catenin accumulates and is constitutively complexed with TCF factors. In APC-positive colon carcinomas and melanomas, dominant mutations in beta-catenin render it indestructable, providing an alternative mechanism to activate transcription of TCF target genes inappropriately. So, transcriptional activation of TCF target genes by beta-catenin appears to be a central event in development and cellular transformation.
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PMID:TCF/LEF factor earn their wings. 943 38

The conventional protein isoform of the APC tumor suppressor is 310 kD and is encoded by exons 1 - 15 of the APC gene. Other RNAs are expressed from the APC gene and include one form that contains an exon upstream of exon 1, designated BS, but this transcript does not include exon 1. This transcript recently has been shown to be enriched in non-dividing, terminally-differentiated cells (Santoro and Groden, 1997). To determine if the BS-containing transcript encoded an alternate APC protein isoform, we generated and affinity-purified a polyclonal antibody directed to protein sequence predicted by exon BS. The BS antibody labeled a band of approximately 300 kD on immunoblots of cerebral and cerebellar tissue from adult human, baboon, rat and mouse. These same tissue lysates also contained prominent BS-reactive proteins of 290 kD, 200 kD and 150 kD. Lysates from mitotically active cells did not contain these APC isoforms. To verify that BS-reactive proteins were APC isoforms, BS-immunoprecipitates were blotted and labeled with commercially available APC antibodies. All four high molecular weight BS-antibody-precipitated proteins were recognized by antibodies directed against epitopes encoded by APC exons 2 and 15. BS isoforms were not, however, labeled with antibodies to an epitope encoded by APC exon 1, consistent with the prediction that BS - APC isoforms lack the domain encoded by these sequences. Like conventional APC, at least one of the four BS-APC protein isoforms also interacts with beta-catenin. BS-APC isoforms that lack exon 1-encoded sequences are incapable of dimerization with the conventional form of APC, yet retain the ability to bind beta-catenin. Such isoforms are likely to be functionally distinct from the conventional APC protein.
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PMID:Novel protein isoforms of the APC tumor suppressor in neural tissue. 946 45


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